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I have something like this:

#include <iostream>
namespace N
   typedef std::pair<int, double> MyPair;
   std::ostream& operator << (std::ostream& o, MyPair const & mypair)

int main()
    N::MyPair pr;
    std::cout << pr;

This naturally doesn't work, because ADL won't find operator<< because namespace N is not associated with MyPair (unfortunately). Afaik one may not add to namespace std, so if I chose to define operator << in std that would be kinda illegal. So... what to do in such situations? I don't want to explicitly qualify operator <<, nor do I wish to write using namespace N. So, questions are - 1. how to refactor the code? 2. Why wouldn't ADL associate namespaces of typedefs? Serious reasons? It would be nice, e.g. in this case. Thanks

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5 Answers

up vote 3 down vote accepted
  1. You could create your own type in namespace N, possibly inheriting from std::pair. You could add "using namespace N;" inside main. The former is more likely to be useful.

  2. Because the type is defined in another namespace and cannot be defined in two.


namespace N { 
struct MyPair : std::pair<int, double> {
  MyPair(int first, double second) : std::pair<int, double>(first, second) {}
  // add defaults if desired: first=0, second=0.0
  // with defaults, you may want to make the ctor explicit or leave implicit

  // also, if desired and you don't use two defaults above:
  MyPair() : std::pair<int, double>(0, 0.0) {}

  // in 0x, you can "import" the base's ctors with a using declaration

If being used as a std::pair isn't important, you can drop the inheritance and rename the members. In either case you can, of course, add additional methods, but if you keep the inheritance you can use "renaming methods":

int      & foo()       { return first; }
int const& foo() const { return first; }
double      & bar()       { return second; }
double const& bar() const { return second; }
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I was thinking about it myself, but it seems kind of artificial to me... –  Armen Tsirunyan Nov 11 '10 at 14:43
@Armen: What seems artificial? –  Roger Pate Nov 12 '10 at 12:39
@Roger: Creating a new class just for ADL's sake –  Armen Tsirunyan Nov 12 '10 at 12:55
@Armen: Well, it's not. :) Think about it this way, what makes your MyPair type special? It's special because you want special output formatting for it. How do you differentiate MyPair from every other pair? You create a special type for it. –  Roger Pate Nov 12 '10 at 12:57
And if MyPair isn't special, then it doesn't need its own output formatting, and you should either handle op<< for all std::pair types or for none. –  Roger Pate Nov 12 '10 at 12:57
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If you have a specific data type which you want to output, you can always define your own class rather than use std::pair.

struct myPair
  int first;
  double second;
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How would that help? –  Let_Me_Be Nov 11 '10 at 14:42
What about good old code reuse principle? :) –  Armen Tsirunyan Nov 11 '10 at 14:43
@Let_Me_Be: That would help because then ADL would find operator << in namespace N –  Armen Tsirunyan Nov 11 '10 at 14:44
You might as well inherit, especially if you're going to use the same member names. :) However, you can only add using declarations for ctors in 0x. –  Roger Pate Nov 11 '10 at 14:45
@Roger: By the way, does 0x allow adding to namespace std? This is a very annoying restriction –  Armen Tsirunyan Nov 11 '10 at 14:46
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I can't think of a reason why typedef names should not participate in ADL. Furthermore, it makes the following code implementation defined :

#include <algorithm>
#include <vector>

namespace my {
class A {};
void for_each();
} // my

int main()
    std::vector<my::A> v;
    for_each(v.begin(), v.end(), [...]);
  • If std::vector<T>::iterator is a typedef for something which sits in the std namespace : std::for_each will be called
  • If std::vector<T>::iterator is a typedef for my::A * : the compiler should complain that my::for_each doesn't take 3 arguments
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+1 for the nice example! –  Armen Tsirunyan Nov 11 '10 at 15:40
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It is allowed to add specialization of template functions to namespace::std however since none of the types used in MyPair is user defined I'm not sure such a specialization is legal.

namespace std {
     ostream& operator<<(ostream& os, const MyPair& p) { }
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Your options are to:

  • Define a new type which uses std::pair in its implementation, instead of using typedef
  • Use a different name for your output function
  • Explicitly qualify the function you want when you call it
  • (Maybe) Specialize the function in namespace std (I'm not sure if pair<int,double> counts as a UDT)

This all stems from the main strength and weakness of typedefs: typedef names are just synonyms. It doesn't matter what namespace you put it in, the typedef name refers to the associated type, in whatever namespace that type is defined in. This is distinct from a typedef being a new type that is convertible to/from the associated type. Imagine this scenario:

class C{};
typedef C id_t;
void f(C);
int f(id_t); // error: structurally equivalent to `int f(C);`

This is invalid, because int and id_t aren't distinct types. This extends to ADL:

namespace A{
  class C{};
  void f(C);
  void g(C);

namespace B{
  typedef C id_t;
  int f(id_t); // structurally equivalent to `void f(C);`

B::id_t id; // completely equivalent to `A::C id;`
int n = f(id); // error: A::f doesn't return int

And here's a question for you: Do you believe that the following should fail to compile? If not, how should the name lookup be resolved:

B::id_t id;
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Well, yes, I believe it should not, ideally, fail to compile. The name lookup would proceed as follows: if the argument expression is an identifier which was declared with a typedefed-type then the associated namespaces to look for g must include the namespace in which the typedef was declares.. Something like that... But giving it some thought I am feeling it would be hideos and useless and problematic... –  Armen Tsirunyan Nov 11 '10 at 16:38
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